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Geometry Measures and Biomechanical Property Tests onHuman Thoracolumbar Vertebrae |
Naval Medical Research Institute, Shanghai 200433, China |
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[1]Brian DS, Jamie LB,Narayan Y, et al. Effect of loading rate on injury patterns during high rate vertical acceleration[C]// Proceedings of IRCOBI Conference. Munich: IRCOBI, 2012:217-224.
[2]Fuchs YT, Jackson KE. Vertical drop testing and analysis of the WASP helicopter skid gear[J]. Journal of the American Helicopter Society, 2011, 156(1):1-10.
[3]Zong Zi, Lam KY. Biodynamic response of shipboard sitting subject to ship shock motion[J]. Journal of Biomechanics,2002,35:35-43.
[4]VoVC 14 910:1142-1144. Mine clearance vehicles crew safety standard [S].
[5]柯文棋,乐秀鸿,杨军,等.水雷爆炸对舰船上动物冲击损伤的试验观察与评价[J].中华航海医学与高气压医学杂志,2001,8(9):136-140.
[6]Mahone RM. Man’s response to ship shock motions[R]. AD628891, 1966.
[7]Liu Xiangxiang. Effect on time domain response and injury of shipboard personnel to ship shock motion induced by underwater explosion[J]. Journal of Applied Biomechanics,1993,8(3):170-177.
[8]Ruff S. Brief acceleration: less than one second[M]// German Aviation Medicine in World War I. Washington DC: US Goverment Printing Office, 1950:584.
[9]Yamada H. Strength of materials biomechanics anatomy[M]//FG Evans eds. Strength of Biological Materials Baltimore:Williams & Wilkins, 1970:106-137.
[10]Gozulov SA, Korzhenyants VA. A Study on the Compression Strength of Human Vertebrae [R]. NASA-TT-F-14566,1972.
[11]Kazarian L, Graves G. Compressive Strength Characteristics of the Human Vertebral Centrum[J]. Spine, 1977,2(1):1-14. |
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